Foam Processes: An Assessment of Their Potential in North Sea Reservoirs Based on a Critical Evaluation of Current Field Experience

Hanssen, Jan Erik; Holt, Torleif; Surguchev, L.M.

doi:10.2118/27768-ms

Cited by 72 publications

(41 citation statements)

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“…Though the microscopic sweep efficiency of CO 2 is quite high, its viscosity (* 0.01 cP) is much lower than both water (* 1.0 cP) and most of the crude oils (0.6-10 cP for conventional oils) which leads to many conformance and mobility concerns and instability in the displacement front. Problems of poor volumetric sweep efficiency, gas channeling through high-permeability streaks, and gravity override are frequent (Hanssen et al 1994). One of the strategies to meet these challenges is to utilize foam, a dispersion of gas in a continuous liquid that lowers the mobility ratio.…”

Section: Surfactant Foamsmentioning

confidence: 99%

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

et al. 2017

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Section: Surfactant Foamsmentioning

confidence: 99%

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

et al. 2017

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“…They are widely used in several applications. Understanding and control of foam flow are issues for numerous processes and have been the subject of a lot of studies in EOR context [1][2][3][4][5][6][7][8]. In the framework of porous media, the foam's definition is more ambiguous as foam is composed mainly of thin liquid films known as lamellae.…”

Section: Introductionmentioning

confidence: 99%

Microfluidic Study of Foams Flow for Enhanced Oil Recovery (EOR)

Quennouz

Ryba

Argillier

et al. 2014

Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles

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IFP Energies nouvelles International Conference Rencontres Scientifiques d'IFP Energies nouvellesRe´sume´-É tude en microfluidique de l'e´coulement de mousses pour la re´cupe´ration assiste´e -Cet article pre´sente, dans le cadre de la re´cupe´ration assiste´e du pe´trole (EOR Enhanced Oil Recovery), une e´tude expe´rimentale avec des dispositifs microfluidiques concernant les e´coulements de mousse dans des canaux de diffe´rentes ge´ome´tries. Deux processus diffe´rents de formation de mousse ont e´te´e´tudie´s. Le premier correspond a`la co-injection de gaz et d'eau a`travers une jonction en croix produisant une mousse monodisperse. Le second correspond a`la fragmentation de grosses bulles par un milieu poreux, processus de formation de mousse simulant des e´coulements multiphasiques dans des roches. La formation de mousse est controˆle´e et caracte´rise´e en variant les pressions applique´es d'eau et de gaz. Nous avons e´galement utilise´un microsyste`me avec deux perme´abilite´s permettant la mise en e´vidence de la redirection de la phase continue vers les canaux de faible perme´abilite´. Ces observations sont importantes pour une meilleure compre´hension des phe´nome`nes implique´s dans les processus EOR ainsi que pour de´terminer les donne´es d'entre´e pertinentes pour les simulateurs d'e´coulement.Abstract -Microfluidic Study of Foams Flow for Enhanced Oil Recovery (EOR) -In this paper, we report an experimental study of foam flow in different channel geometries using microfluidic devices in the framework of EOR (Enhanced Oil Recovery). Two different processes of foam formation are studied. The first one corresponds to co-injection of gas and water through a cross junction which gives rise to a monodisperse foam. The second one corresponds to the fragmentation of large bubbles by a porous media, a foam formation process simulating multiphase flows in rocks. The foam formation is completely controlled and characterized varying both the water and gas pressure applied. We also use a microdevice with two permeabilities that permits to highlight the diversion of the continuous phase in the low permeability channels. The observations are important for a better understanding of the implied phenomena in EOR as well as to determine pertinent data to feed flow simulators.

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“…Foam has the potential to increase oil recovery by promoting improved areal sweep, better vertical sweep (less gravity override), less viscous fingering, and diversion of gas away from higherpermeability or previously swept layers (Bernard and Holm 1964;Holm 1968;Hanssen et al 1994;Schramm 1994;Rossen 1996). Diversion of gas into lower-permeability layers using foams has previously been reported [see, for example, Casteel and Djabbarah (1988), Llave et al (1990), Zerhboub et al (1994), and Nguyen et al (2003)].…”

Section: Introductionmentioning

confidence: 99%

Experimental Study of Foam Flow in Fractured Oil-Wet Limestone for Enhanced Oil Recovery

Haugen

Fernø

Graue

et al. 2012

SPE Reservoir Evaluation &Amp; Engineering

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Our objective was to study foam flow in fractured, oil-wet carbonate rocks and determine if foam may be a viable enhanced-oilrecovery (EOR) agent in such reservoirs. We present experimental results in fractured carbonate rock and show effects of wettability on oil recovery when using foam. Oil recovery by water, surfactant, or gas injection exhibited low recovery, less than 10% of original oil in place (OOIP). Oil recovery during injection of pregenerated foam was improved significantly, with up to 78% of OOIP produced. Foam reduced the gas mobility in the fractured rock, increased differential pressure, and diverted flow into the oil-saturated matrix. However, a significant amount of foam injection was required for the additional oil recovery. Generation of foam in-situ was weak in the smooth-walled fractures, and no fluid diversion from the fractures with additional oil recovery was observed. On the basis of the experimental results, mechanisms for foam collapse in the fracture are discussed and possible steps to improve recovery are outlined.

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Foam Processes: An Assessment of Their Potential in North Sea Reservoirs Based on a Critical Evaluation of Current Field Experience

Cited by 72 publications

References 0 publications

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

Review of surfactant-assisted chemical enhanced oil recovery for carbonate reservoirs: challenges and future perspectives

Microfluidic Study of Foams Flow for Enhanced Oil Recovery (EOR)

Experimental Study of Foam Flow in Fractured Oil-Wet Limestone for Enhanced Oil Recovery

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